Magnetic and Structural Properties of Some Rare-Earth-Sn3 Compounds

Abstract

The 23.8‐keV Mössbauer resonance of ¹¹⁹Sn and susceptibility measurements have been used to study the structural and magnetic properties of CeSn₃, PrSn₃, and NdSn₃ intermetallic compounds between 293° and 1.6°K. The deterioration of the powder samples, which yields free tin and has led to inconsistent results in the past, is clearly demonstrated in these spectra. Both PrSn₃ and NdSn₃ exhibit magnetic hyperfine (hf) spectra below their Néel temperatures of 8.6° and 4.7°K, respectively. In PrSn₃ one‐third of the Sn nuclei experience a transferred hf field of 67 kOe with the spin direction parallel to the principal electric‐field‐gradient axis while the remaining Sn nuclei display no magnetic splitting. This is interpreted as the result of antiferromagnetic ordering of the first kind. In NdSn₃ the magnetic ordering appears to be more complex. In CeSn₃ neither magnetic ordering nor the ``incipient ferromagnetism'' previously suggested is seen. The size of the quadrupole interaction and the isomer shift are nearly equal in all these compounds.